https://epjqt.epj.org Recent articles published in 'EPJ Quantum Technology' daily 1 2026-02-25T23:52:15Z Springer Berlin Heidelberg Copyright (c) Springer Berlin Heidelberg 2026 Copyright (c) Springer Berlin Heidelberg 2026 2662-4400 EPJ Quantum Technology Quantum secure multiparty multiplication based on d-level single particles https://epjqt.epj.org/10.1140/epjqt/s40507-025-00356-z Authors: Xiu-Li Song, Jie Yan, You-Sheng Zhou and Tao Wu.<br />EPJ Quantum Technology Vol. 13 , page 12<br />Published online: 31/12/2025<br /> Keywords: Quantum Secure Multiparty Multiplication ; Unbiased Basis Particles ; Quantum Circuit. Quantum secure multiparty multiplication based on d-level single particles Xiu-Li Song Jie Yan You-Sheng Zhou Tao Wu Quantum Secure Multiparty Multiplication Unbiased Basis Particles Quantum Circuit 2025-12-31 text/html 10.1140/epjqt/s40507-025-00356-z EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2025-12-31 EPJ Quantum Technology 12 13 Enhancement of optomagnonic coupling and microwave-optical conversion via magnetic anisotropy https://epjqt.epj.org/10.1140/epjqt/s40507-025-00458-8 Authors: Hong Xie, Le-Wei He, Xiang Lin and Xiu-Min Lin.<br />EPJ Quantum Technology Vol. 13 , page 11<br />Published online: 30/12/2025<br /> Keywords: Microwave-optical frequency conversion ; Squeezed magnons ; Enhancement. Enhancement of optomagnonic coupling and microwave-optical conversion via magnetic anisotropy Hong Xie Le-Wei He Xiang Lin Xiu-Min Lin Microwave-optical frequency conversion Squeezed magnons Enhancement 2025-12-30 text/html 10.1140/epjqt/s40507-025-00458-8 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2025-12-30 EPJ Quantum Technology 11 13 Exponential separation criteria for quantum iterative power algorithms https://epjqt.epj.org/10.1140/epjqt/s40507-026-00466-2 Authors: András Czégel and Boglárka G.-Tóth.<br />EPJ Quantum Technology Vol. 13 , page 13<br />Published online: 9/1/2026<br /> Keywords: Quantum optimization ; Algorithmic complexity ; Quantum advantage. Exponential separation criteria for quantum iterative power algorithms András Czégel Boglárka G.-Tóth Quantum optimization Algorithmic complexity Quantum advantage 2026-1-9 text/html 10.1140/epjqt/s40507-026-00466-2 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-9 EPJ Quantum Technology 13 13 Quantum long short-term memory for drug discovery https://epjqt.epj.org/10.1140/epjqt/s40507-026-00467-1 Authors: Liang Zhang, Yin Xu, Mohan Wu, Liang Wang and Hua Xu.<br />EPJ Quantum Technology Vol. 13 , page 14<br />Published online: 12/1/2026<br /> Keywords: Quantum computing ; Machine learning ; Drug discovery ; Molecular screening and Noisy intermediate-scale quantum. Quantum long short-term memory for drug discovery Liang Zhang Yin Xu Mohan Wu Liang Wang Hua Xu Quantum computing Machine learning Drug discovery Molecular screening and Noisy intermediate-scale quantum 2026-1-12 text/html 10.1140/epjqt/s40507-026-00467-1 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-12 EPJ Quantum Technology 14 13 Correction: Analog QAOA with Bayesian optimisation on a neutral atom QPU https://epjqt.epj.org/10.1140/epjqt/s40507-026-00479-x Authors: Simone Tibaldi, Lucas Leclerc, Davide Vodola, Edoardo Tignone and Elisa Ercolessi.<br />EPJ Quantum Technology Vol. 13 , page 15<br />Published online: 11/2/2026 Correction: Analog QAOA with Bayesian optimisation on a neutral atom QPU Simone Tibaldi Lucas Leclerc Davide Vodola Edoardo Tignone Elisa Ercolessi 2026-2-11 text/html 10.1140/epjqt/s40507-026-00479-x EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-2-11 EPJ Quantum Technology 15 13 Modelling quantum curriculum innovation: a pilot study https://epjqt.epj.org/10.1140/epjqt/s40507-026-00476-0 Authors: Jonas Bley, Simon Goorney, Aurél Gábris, Stefan Küchemann, Stefan Heusler, Artur Widera and Jacob Sherson.<br />EPJ Quantum Technology Vol. 13 , page 16<br />Published online: 9/2/2026<br /> Keywords: Quantum Information Science and Technology ; Curriculum Development ; Competence Framework ; Thematic Analysis ; Didactical Innovation. Modelling quantum curriculum innovation: a pilot study Jonas Bley Simon Goorney Aurél Gábris Stefan Küchemann Stefan Heusler Artur Widera Jacob Sherson Quantum Information Science and Technology Curriculum Development Competence Framework Thematic Analysis Didactical Innovation 2026-2-9 text/html 10.1140/epjqt/s40507-026-00476-0 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-2-9 EPJ Quantum Technology 16 13 Quantum-secured device-independent global positioning system https://epjqt.epj.org/10.1140/epjqt/s40507-026-00470-6 Authors: Chon-Fai Kam and En-Jui Kuo.<br />EPJ Quantum Technology Vol. 13 , page 18<br />Published online: 20/1/2026<br /> Keywords: Quantum self-test ; GPS security ; Five-qubit code ; Multipartite quantum communication. Quantum-secured device-independent global positioning system Chon-Fai Kam En-Jui Kuo Quantum self-test GPS security Five-qubit code Multipartite quantum communication 2026-1-20 text/html 10.1140/epjqt/s40507-026-00470-6 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-20 EPJ Quantum Technology 18 13 Encrypted network traffic analysis using quantum machine learning https://epjqt.epj.org/10.1140/epjqt/s40507-025-00459-7 Authors: Gokul Sunil Sodar, Akshay Murthy, Annapurna Jonnalagadda and Aswani Kumar Cherukuri.<br />EPJ Quantum Technology Vol. 13 , page 17<br />Published online: 20/1/2026<br /> Keywords: Hybrid QML ; K-Nearest Neighbors (KNN) ; Quantum K-Nearest Neighbors (QKNN) ; Quantum Machine Learning (QML) ; Quantum Support Vector Machine (QSVM) ; Support Vector Machine (SVM). Encrypted network traffic analysis using quantum machine learning Gokul Sunil Sodar Akshay Murthy Annapurna Jonnalagadda Aswani Kumar Cherukuri Hybrid QML K-Nearest Neighbors (KNN) Quantum K-Nearest Neighbors (QKNN) Quantum Machine Learning (QML) Quantum Support Vector Machine (QSVM) Support Vector Machine (SVM) 2026-1-20 text/html 10.1140/epjqt/s40507-025-00459-7 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-20 EPJ Quantum Technology 17 13 Effects of hyperfine splitting on 1470 nm active optical clock with cesium atoms https://epjqt.epj.org/10.1140/epjqt/s40507-026-00471-5 Authors: Deshui Yu, Baolin Zhang, Tiantian Shi, Shougang Zhang and Jingbiao Chen.<br />EPJ Quantum Technology Vol. 13 , page 21<br />Published online: 27/1/2026<br /> Keywords: Active optical clocks ; Cavity pulling ; Bad-cavity lasers ; Schawlow–Townes linewidth. Effects of hyperfine splitting on 1470 nm active optical clock with cesium atoms Deshui Yu Baolin Zhang Tiantian Shi Shougang Zhang Jingbiao Chen Active optical clocks Cavity pulling Bad-cavity lasers Schawlow–Townes linewidth 2026-1-27 text/html 10.1140/epjqt/s40507-026-00471-5 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-27 EPJ Quantum Technology 21 13 Low crosstalk in a scalable superconducting quantum lattice https://epjqt.epj.org/10.1140/epjqt/s40507-026-00465-3 Authors: Mohammed Alghadeer, Shuxiang Cao, Simone D. Fasciati, Michele Piscitelli, Paul C. Gow, James C. Gates, Mustafa Bakr and Peter J. Leek.<br />EPJ Quantum Technology Vol. 13 , page 19<br />Published online: 26/1/2026<br /> Keywords: Superconducting qubits ; Scalable quantum devices ; Quantum algorithms ; Quantum computing. Low crosstalk in a scalable superconducting quantum lattice Mohammed Alghadeer Shuxiang Cao Simone D. Fasciati Michele Piscitelli Paul C. Gow James C. Gates Mustafa Bakr Peter J. Leek Superconducting qubits Scalable quantum devices Quantum algorithms Quantum computing 2026-1-26 text/html 10.1140/epjqt/s40507-026-00465-3 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-26 EPJ Quantum Technology 19 13 Quantum-driven enhanced machine learning algorithm for intrusion detection in Internet of things environment https://epjqt.epj.org/10.1140/epjqt/s40507-026-00463-5 Authors: Indira Bharathi, Veeramani Sonai and Sridevi S.<br />EPJ Quantum Technology Vol. 13 , page 20<br />Published online: 26/1/2026<br /> Keywords: Industry 4.0 ; IoT ; Machine Learning ; Quantum computing ; Hybrid Quantum Neural Network ; Intrusion detection. Quantum-driven enhanced machine learning algorithm for intrusion detection in Internet of things environment Indira Bharathi Veeramani Sonai Sridevi S Industry 4.0 IoT Machine Learning Quantum computing Hybrid Quantum Neural Network Intrusion detection 2026-1-26 text/html 10.1140/epjqt/s40507-026-00463-5 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-26 EPJ Quantum Technology 20 13 EAQAS: Embedding-Aware Quantum Architecture Search via cross-attention fusion and hierarchical representation learning https://epjqt.epj.org/10.1140/epjqt/s40507-026-00478-y Authors: Jiawen Dai, Jialiang Gu, Raymond Ho, Gary Man-Tat Man, Kwok Tai Chui and Kevin Hung.<br />EPJ Quantum Technology Vol. 13 , page 22<br />Published online: 18/2/2026<br /> Keywords: Quantum machine learning ; Quantum architecture search ; Cross-attention fusion ; Hierarchical representation learning ; Quantum circuit optimization. EAQAS: Embedding-Aware Quantum Architecture Search via cross-attention fusion and hierarchical representation learning Jiawen Dai Jialiang Gu Raymond Ho Gary Man-Tat Man Kwok Tai Chui Kevin Hung Quantum machine learning Quantum architecture search Cross-attention fusion Hierarchical representation learning Quantum circuit optimization 2026-2-18 text/html 10.1140/epjqt/s40507-026-00478-y EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-2-18 EPJ Quantum Technology 22 13 A cross-chain model with underlying security and scalability based on quantum algorithm https://epjqt.epj.org/10.1140/epjqt/s40507-025-00462-y Authors: Zhuo Wang, Jian Li, Ang Liu, Mianxiong Dong and Yanyan Hou.<br />EPJ Quantum Technology Vol. 13 , page 23<br />Published online: 29/1/2026<br /> Keywords: Cross-chain ; Access control ; Quantum signature ; Secure mechanism. A cross-chain model with underlying security and scalability based on quantum algorithm Zhuo Wang Jian Li Ang Liu Mianxiong Dong Yanyan Hou Cross-chain Access control Quantum signature Secure mechanism 2026-1-29 text/html 10.1140/epjqt/s40507-025-00462-y EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-1-29 EPJ Quantum Technology 23 13 Fast quantum amplitude encoding of typical classical data https://epjqt.epj.org/10.1140/epjqt/s40507-026-00473-3 Authors: Vittorio Pagni, Sigurd Huber, Michael Epping and Michael Felderer.<br />EPJ Quantum Technology Vol. 13 , page 24<br />Published online: 5/2/2026<br /> Keywords: State preparation ; Amplitude encoding ; Satellite data. Fast quantum amplitude encoding of typical classical data Vittorio Pagni Sigurd Huber Michael Epping Michael Felderer State preparation Amplitude encoding Satellite data 2026-2-5 text/html 10.1140/epjqt/s40507-026-00473-3 EPJ Quantum Technology Vol. 13(1) abstract epjqt/2026/01 2026-2-5 EPJ Quantum Technology 24 13